Abstract
This paper proposes a general framework for the energy efficiency analysis of a hybrid visible light communication (VLC) and Radio Frequency (RF) wireless system, in which both VLC and RF subsystems utilize non-orthogonal multiple access (NOMA) technology. The proposed framework is based on realistic communication scenarios as it takes into account the mobility of users and assumes imperfect channel-state information (CSI). In this context, tractable closed-form expressions are derived for the corresponding average sum-rate of NOMA-VLC and orthogonal frequency division multiple access (OFDMA)-VLC. It is shown extensively that incurred CSI errors have a considerable impact on the average energy efficiency of both NOMA-VLC and OFDMA-VLC systems. Hence, they should be taken into detailed account in the design of practical systems. We further demonstrate that the average energy efficiency of the hybrid NOMA-VLC-RF system outperforms the NOMA-VLC system under imperfect CSI. Respective computer simulations corroborate the derived analytic results, and interesting theoretical and practical insights are provided, which will be useful in the effective design and deployment of conventional VLC and hybrid VLC-RF systems.
Highlights
T HE rapidly growing demand for data-intensive applications, such as video streaming, virtual reality (VR), and cloud computing, has led to an enormous growth in the global mobile data traffic, which results in annual traffic levels in the order of a zettabyte [2]
Our results exhibit a perfect match between analysis and simulations in all consider cases, which justifies the validity of the derivations
This work evaluated the performance of a hybrid NOMAVLC-Radio Frequency (RF) system, assuming imperfect channel-state information (CSI) and uniformly distributed users
Summary
T HE rapidly growing demand for data-intensive applications, such as video streaming, virtual reality (VR), and cloud computing, has led to an enormous growth in the global mobile data traffic, which results in annual traffic levels in the order of a zettabyte [2]. In [16] the authors proposed a precoder and equalizer design for an optical wireless MIMO system for VLC, in which they take into account the case of the imperfect channel state information Another interesting study was reported in [39], where authors studied optimal power allocation for NOMA-VLC for both static users and mobile users under CSI uncertainties. VLC and NOMA-VLC-RF systems, including its detrimental effect on the achievable average sum-rate and average energy efficiency This provides useful theoretical and practical insights on conventional and hybrid NOMA based VLC systems. This analysis considers only the LOS component of the optical channel gain
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